Fuel Cell Components Market Opportunities, Strategies, and Forecasts, 2005 to 2013

Table of Contents

FUEL CELL COMPONENTS EXECUTIVE SUMMARY

• Micro Fuel Cells First to Develop
• Market Driving Force For Fuel Cell Components
• Fuel Cell Component Market Share Analysis
• Fuel Cell Component Membrane Electrode Assembly (MEAs)
• Forecasts
• Fuel Cell Component Membrane Electrode Assembly (MEAs)
• Research and Development Forecasts

1. FUEL CELL COMPONENT MARKET DESCRIPTION AND MARKET DYNAMICS

• 1.1 Fuel Cell Component Description
  • 1.1.1 Fuel Cell Stacks
  • 1.1.2 Fuel Cell Components
  • 1.1.3 Fuel Cell Membrane Electrode Assembly
  • 1.1.4 Fuel Cell Power Consumption In Expanded Single Fuel Cell
• 1.2 Fuel Cell Aspects
  • 1.2.1 Hydrogen
  • 1.2.2 Membrane Electrode Assembly
  • 1.2.3 Air
  • 1.2.4 Flow Field Plates
  • 1.2.5 Fuel Cell Stack
  • 1.2.6 Fuel Cell Flow Field Plates
  • 1.2.7 Desulfurization
  • 1.2.8 Bipolar Plates
• 1.3 Polymer Electrolyte Fuel Cell (PEFC)
  • 1.3.1 Power Generation Principle Of The Polymer Electrolyte Fuel Cell(PEFC)
  • 1.3.2 MEA (Membrane Electrode Assembly)
  • 1.3.3 Fluorine-Based Proton-Conductive Polymers
  • 1.3.4 Polymer Composite
  • 1.3.5 Ion exchange membrane for chloro-alkali electrolysis
  • 1.3.6 Degradation rate
  • 1.3.7 Fuel cell Cogeneration Systems For Residential Use

2. FUEL CELL COMPONENTS MARKET SHARES AND MARKET FORECASTS

• 2.1 Fuel Cell Chemical Reaction Between Hydrogen And Oxygen Is Transformed Into Electric Energy
  • 2.1.1 Market Driving Force For Fuel Cell Components
  • 2.1.2 Commercialization Of Fuel Cells For Transportation
  • 2.1.3 Integrated Fuel Cell Personal Transport Power System Market Driving Forces
• 2.2 Fuel Cell Component Market Share Analysis
  • 2.2.1 Membrane Electrode Assembly (MEA) Market Shares
  • 2.2.2 Johnson Matthey
  • 2.2.3 DuPont
  • 2.2.4 Gore
  • 2.2.5 Dow
  • 2.2.6 Fuel Cell Membrane Electrode Assemblies (MEAs)Companies
  • 2.2.7 PEMEAS Industrial Supplier Of High Temperature MEAs for PEM Fuel Cells
  • 2.2.8 High Temperature MEAs for PEM Market Shares
  • 2.2.9 PEMEAS Technology
  • 2.2.10 Worldwide Direct Methanol Fuel Cell (DMFC), Membrane Electrode Assembly (MEAs)
  • 2.2.11 Fuel Cell Bipolar Plate Market Shares
  • 2.2.12 Gas Diffusion Layer (GDL) Advanced Flexible Graphite Market Shares
  • 2.2.13 Fuel Cell Balance of Plant Market Shares
  • 2.2.14 Johnson Matthey Fuel Cell Catalysts
• 2.3 Fuel Cell Component Market Forecasts
  • 2.3.1 Fuel Cell Membrane Electrode Assembly MEA Component Product Market Forecasts
  • 2.3.2 Residential Fuel Cell Component Membrane Electrode Assembly (MEAs) Forecasts
  • 2.3.2 Micro Fuel Cell Component Membrane Electrode Assembly (MEAs) Forecasts
  • 2.3.4 Fuel Cell Component Membrane Electrode Assembly (MEAs) Forecasts
  • 2.3.5 Fuel Cell Component BiPolar Plate Forecasts
  • 2.3.6 Fuel Cell Component Gas Diffusion Layer (GDL) Forecasts
  • 2.3.7 DuPont
• 2.4 Fuel Cell Cost Analysis
  • 2.4.1 Fuel Cell Cost
  • 2.4.2 Methanol Refueling Infrastructure
• 2.5 Fuel Cell Vehicle Market Forecasts
  • 2.5.1 Vehicle Fuel Cell Market Forecast, 2003 to 2006 and 2007-2013,Dollars
  • 2.5.2 Vehicle Fuel Cell Markets 2007-2013
• 2.6 Stationary Power Market, Fuel Cells
  • 2.6.1 PEM Units
• 2.7 Stationary Fuel Cell Market Shares
  • 2.7.1 UTC Fuel Cells
  • 2.7.2 Siemens Westinghouse
  • 2.7.3 Plug Power Gencore® System Remote Cell Tower
  • 2.7.4 1 kW Combined Heat And Power Generator From Ebara Ballard
  • 2.7.5 Ballard 250 kW Stationary Generator
  • 2.7.6 FuelCell Energy Direct FuelCell
  • 2.7.7 Versa Power Systems
  • 2.7.8 GreenVOLT Modular Systems
• 2.8 Stationary Fuel Cells Market Forecasts
  • 2.8.1 Stationary Fuel Cell Utility Grid Power Market Forecasts
  • 2.8.2 Military Stationary Fuel Cell Market Forecasts
  • 2.8.3 Stationary Fuel Cell Industrial And Commercial Market Forecasts
  • 2.8.4 Stationary Fuel Cells Data Center Back-Up Power Market Forecasts
  • 2.8.5 Stationary Fuel Cells for Telecommunications Market Forecasts
  • 2.8.6 Stationary Fuel Cells Educational Campus Power Market Forecasts
  • 2.8.7 Stationary Fuel Cells Civilian Government Power Market Forecasts
  • 2.8.8 Stationary Fuel Cell Residential Market Forecasts
  • 2.8.9 UTC Energy Center (PEM) Residential
• 2.9 Stationary Fuel Cell System Integration
  • 2.9.1 Endurance and Reliability
  • 2.9.2 Stationary Fuel Cell Infrastructure
• 2.10 Non-Technical Stationary Fuel Cell Market Issues
  • 2.10.1 Fuel-To-Electricity Efficiency Ranges
  • 2.10.2 PEM Units
• 2.11 Fuel Cells Vehicle Impact On Oil Use
  • 2.11.1 Carbon Dioxide Emissions
• 2.12 Fuel Cell Fuel Economy
• 2.13 Micro Fuel Cell Market Forecasts
  • 2.13.1 Micro MEAs And MEA Component Product Market Forecasts
• 2.14 Fuel-Cell System Costs
• 2.15 Membrane electrode assembly (MEA) Market Forecasts
• 2.16 Vehicle Fuel Cell Regional Analysis
  • 2.16.1 Japanese 50,000 FCVs
  • 2.16.2 Fuel Cell Regional Analysis
  • 2.16.3 International Cooperation Project
  • 2.16.4 European Fuel Cell Markets
  • 2.16.5 Japanese Investment in Fuel Cells
  • 2.16.6 Japanese Aichi Prefecture
  • 2.16.7 Japanese Mie Prefecture
  • 2.16.8 Japanese Fukuoka Prefecture
  • 2.16.9 Japan Osaka Gas Co., Ltd. and Kyocera Corporation
  • 2.16.10 Japan Kansai Electric Power Co., Inc. and Mitsubishi Materials Corporation
  • 2.16.11 TOTO Ltd.
  • 2.16.12 Hosokawa Powder Technology Research Institute
  • 2.16.13 Dai Nippon Printing Co., Ltd.
  • 2.16.14 Seiko Giken Co., Ltd. And F J Composite
  • 2.16.15 Sekisui House Corporation
  • 2.16.16 Toho Gas Co., Ltd.
  • 2.16.17 Honda Motor Co., Ltd.
  • 2.16.18 General Motors Corporation
  • 2.16.19 Mitsubishi Kakoki Kaisha Ltd
  • 2.16.20 Toagosei Co., Ltd.
  • 2.16.21 Takasaki Radiation Chemistry Research Establishment of Japan Atomic Energy Research Institute and Nitto Denko Corporation
  • 2.16.22 Tokuyama Corporation
  • 2.16.23 CHINO Corporation
  • 2.16.24 Hydrogenics Corporation
  • 2.16.25 Murata Manufacturing Segregation and Storage of Carbon Dioxide
  • 2.16.26 GS Yuasa Corporation
• 2.17 Fuel Cell Component Companies

3. FUEL CELL COMPONENT PRODUCT DESCRIPTION

• 3.1 Fuel Cell Membrane Electrode Assembly MEA Products
• 3.2 Johnson Matthey MEAs
  • 3.2.1 Johnson Matthey Fuel Processor Catalyst / Fuel Cell MEA
  • 3.2.2 Johnson Matthey FP05 and FP06
• 3.3 DuPont
• 3.4 Gore MEA Products
  • 3.4.1 W.L. Gore & Associates Fuel Cell Components
  • 3.4.2 Gore Series 56 MEA For Transportation
  • 3.4.3 Gore Series 56 MEAs for Stationary Power
  • 3.4.4 Gore Series 56 MEAs for Stationary Power
  • 3.4.5 Gore Series 57 MEAs for Transportation
  • 3.4.6 Series 58 MEAs for Portable & Backup Power
• 3.5 Dow Chemical
  • 3.5.1 GM / Dow Chemical
  • 3.5.2 Millennium Cell / Dow Chemical Commercialization Of Portable Fuel Cell Systems
  • 3.5.3 Millennium Cell / Dow Chemical Military Applications
• 3.6 3M Membrane Electrode Assembly (MEA)
• 3.7 BASF MEA
  • 3.7.1 BASF / XCELLSIS (The Fuel Cell Engine Company)
• 3.8 Altair
• 3.9 Asahi Glass MEA
  • 3.9.1 Asahi Glass MEA Able To Operate Stably In Low Humidity And At High Temperatures
  • 3.9.2 Asahi Glass MEA Generation Rate Is 1/100 To 1/1000 Of That Of The Conventional MEAs
• 3.10 Ballard Carbon Fiber MEA Products
  • 3.10.1 Ballard Fuel Cell
  • 3.10.2 Ballard Gas Diffusion Layers (GDLs)
  • 3.10.3 Ballard Membrane Electrode Assembly
  • 3.10.4 Ballard Direct Methanol Fuel Cells
  • 3.10.5 Ballard Carbon Products
  • 3.10.6 Ballard Flow Field Plates
• 3.11 Hoku Scientific Component And System Designs
  • 3.11.1 Hoku Scientific Hoku Membrane™ and Hoku MEA
  • 3.11.2 Hoku Membrane Reduces MEA Production Costs By Up To 90%.
  • 3.11.3 Hoku Low Operating Temperature Membrane
• 3.12 Celanese Fuel Cells
  • 3.12.1 Celanese Fuel Cells Technology
  • 3.12.2 Celanese Fuel Cell Polymer (PBI) Factory
  • 3.12.3 Celanese Fuel Cells MEA Pilot Plant
  • 3.12.4 Celanese MER Fuel Cells
  • 3.12.5 Celanese Celtec® MEA
  • 3.12.6 Celanese Benefits to the Fuel Cell System
  • 3.12.7 Celanese Celtec®-V Membrane for DMFC Applications
  • 3.12.8 Celanese Celtec® Technology For Fuel Cells
  • 3.12.9 Celanese Pemeas - Technology Targeted To Stationary Fuel Cells
  • 3.12.10 Celanese Pemeas Fuel-Cell
• 3.13 E-TEKClean
  • 3.13.1 E-TEK High-Performance Gas Diffusion Electrodes
  • 3.13.2 E-TEK Gas Diffusion Electrodes Performance Custom, Hand Laid Components Targeted To R&D
  • 3.13.3 E-TEK Automated Manufacturing
  • 3.13.4 E-TEK Industrial Electrochemistry and Sensors
• 3.14 Smart Fuel Cell Energy Conversion
  • 3.14.1 Smart Fuel Cell Membrane-Electrode-Assemblies (MEA)
• 3.15 BiPolar Plates
• 3.16 SGL Technologies
  • 3.16.1 SGL Carbon Starts Mass Production of PEM Fuel Cell Components
• 3.17 Schunk Group Bipolar Plates for Fuel Cells
  • 3.17.1 Schunk Bipolar Plate Sophisticated Materials and Manufacturing Technologies
  • 3.17.2 Schunk Kohlenstofftechnik GmbH Bipolar Plates for Fuel Cells
  • 3.17.3 Schunk Kohlenstofftechnik GmbH Sophisticated Materials and Manufacturing Technologies
• 3.18 DuPont Conductive Plates
• 3.19 GrafTech / Advanced Energy Tec
  • 3.19.1 Grafcell® Advanced Flexible Graphite for Fuel Cells
  • 3.19.2 Grafpower™ Graphite Powders
  • 3.19.3 GrafTech Value Added Services
  • 3.19.4 Enabling Fuel Cell Commercialization
• 3.20 Catalysts
• 3.21 Johnson Matthey Catalysts
  • 3.21.1 Johnson Matthey / Synetix
  • 3.21.2 Ballard Catalysts
• 3.22 Neah Power Systems
• 3.23 Smart Fuel Cell Micro Fuel Cell Platinum Breakthrough
  • 3.23.1 Smart Fuel Cell Reduces the Cost Of Fuel Cells By Using Half The Platinum
  • 3.23.2 Smart Fuel Cell Development
• 3.24 Materials and Energy Research Institute Tokyo (Merit) Direct Borohydride Technology Powers Fuel Cells
  • 3.24.1 Merit Direct Borohydride Fuel Cell catalyst
  • 3.24.2 Merit DBFC Mechanism
  • 3.24.3 Merit Borohydride Hydrogen Generation (BHG)
• 3.25 DBFC by MERIT Ltd.
• 3.26 Fuel Cell Components and Integrators
• 3.27 Fuel Cell Components and Integrators
  • 3.27.1 Fuel Cell Components and Integrators (FCCI) Products
  • 3.27.2 Fuel Cell Components and Integrators (FCII) Fuel Storage Systems Products
  • 3.27.3 Fuel Cell Components and Integrators (FCII) Materials Products
  • 3.27.4 Fuel Cell Components and Integrators (FCII) Graphite Foil Products
  • 3.27.5 ICM Plastics
  • 3.27.6 ConocoPhillips ProxCat POC
• 3.28 NEC Fuel Cell Carbon Nanotubes
  • 3.28.1 Fuel Cell Nanotechnology at NEC
  • 3.28.2 NEC Portable PC Powered by Fuel Cell

4. FUEL CELL COMPONENTS TECHNOLOGY

• 4.1 Fuel Cells Environmentally Friendly Energy Source
• 4.2 Fuel Cell Basic Reactions
  • 4.2.1 Fuel Cell Chemical Reactions
• 4.3 Fuel Cell Vehicle Technology
  • 4.3.1 Fuel Cell Transportation Technology
  • 4.3.2 Vehicular Application Issues
• 4.4 Hydrogen Flow
  • 4.4.1 Paste On Both Sides Of Film Produces The Core Of A Fuel Cell
  • 4.4.2 Graphite Dust Embedded With Ultra-fine Platinum Particles
  • 4.4.3 Flow Field Plates
  • 4.4.4 Hydrogen Consumption For Fuel Cell Buses
  • 4.4.5 Hydrogen Consumption For Fuel Cell Light-Duty Vehicles
  • 4.4.6 Hydrogen From Renewable Sources
  • 4.4.7 Hydrogen Gas, H2, Essential To Power Fuel Cell Engines
• 4.5 Types of Fuel Cell Technology
  • 4.5.1 Types Of Fuel Cells
  • 4.5.2 Alkaline Fuel Cells
  • 4.5.3 Phosphoric Acid Fuel Cells
  • 4.5.4 Molten Carbonate Fuel Cells
  • 4.5.5 Solid Oxide Fuel Cells
  • 4.5.6 PEM Technology
  • 4.5.7 Proton Excha nge Membrane (PEM) Fuel Cells
  • 4.5.8 PEM Fuel Cells
  • 4.5.9 Proton Exchange Membrane (PEM) Fuel Cell
  • 4.5.10 Proton Exchange Membrane (PEM) Membranes And Catalysts
  • 4.5.11 PEM Technology
• 4.6 Direct Methanol Fuel Cell Technology
  • 4.6.1 Proton Exchange Membrane (PEMFCs)
  • 4.6.2 SOFCs (Solid Oxide Fuel Cells) and MCFCs (Molten Carbonate Fuel Cells)
  • 4.6.3 Difference Between Proton Exchange Membrane (PEM) Fuel Cell Technology And Solid Oxide And Phosphoric Acid
• 4.7 Fuel Cell Chemistry
• 4.8 Composite Flow Molding For High Specific Strength
  • 4.8.1 Ballard Uses The Victrex Peek Polymer
  • 4.8.2 Vehicle Propulsion
  • 4.8.3 Distributed Power Generation
  • 4.8.4 Premium Power
  • 4.8.5 Portable Power
• 4.9 Inside the PEM Fuel Cell
  • 4.9.1 Organizations With Fuel Cell Information
• 4.10 Hydrogen Supply And Container Infrastructure
• 4.11 Storing Hydrogen
  • 4.11.1 Sodium Borohydride Storing of Hydrogen
  • 4.11.2 Borohydride Hydrogen Generation
• 4.12 Sodium Borohydride Chemical Power
• 4.13 Clean And Silent Micro Fuel Cell Power Generation By Methanol
• 4.14 Fuel Cell Stack Issues
  • 4.14.1 Balance of Plant Issues
  • 4.14.2 Power Density

5. FUEL CELL COMPONENT COMPANY PROFILES

• 5.1 Altair Nanomaterials
• 5.2 Asahi Glass
• 5.3 Ballard
  • 5.3.1 Ballard AET
  • 5.3.2 Ballard NGL Recovery Unit
  • 5.3.3 Ballard Nitrogen Rejection
  • 5.3.4 Ballard Monomer Recovery
  • 5.3.5 Ballard Ammonia Purge Gas
  • 5.3.6 Ballard Methanol Purge Gas
• 5.4 Dow Chemical Company
  • 5.4.1 Energy Is Business Critical For Dow
• 5.5 E-TEK
• 5.6 Fuel Cell Components and Integrators
  • 5.6.1 Fuel Cell Components and Integrators / TechnaPulse
  • 5.6.2 Fuel Cell Components and Integrators (FCCI) Facilities
• 5.7 Gore
  • 5.7.1 Gore Fuel-Cell Business Model
  • 5.7.2 Gore MEA Recycling
  • 5.7.3 Gore MEAs For High-Temperature / Direct Methanol Fuel Cells
  • 5.7.4 Gore Sales And Customer Service Sites
• 5.8 GrafTech International
  • 5.8.1 GrafTech Revenue
  • 5.8.2 GrafTech International Patents
• 5.9 Hoku Scientific
  • 5.9.1 Hoku Scientific / SANYO Electric
  • 5.9.2 Team
• 5.10 ICM Plastics'
• 5.11 Johnson Matthey
  • 5.11.1 Catalysed Components For Fuel Cells
  • 5.11.2 Johnson Matthey Global ECT auto catalyst
• 5.12 Millenium
  • 5.12.1 Millennium Cell / Dow Chemical Military And Commercial Applications
  • 5.12.2 Millennium Cell Fuel Cell Product Platforms
  • 5.12.3 Millennium Cell Fourth Quarter Revenue 2004
  • 5.12.4 Millennium Cell
  • 5.12.5 Millennium Cell Hydrogen Energy Systems
  • 5.12.6 Millennium Cell Technology Differentiation From Batteries And From Direct Methanol Fuel Cells (DMFC)
• 5.13 Mechanical Technology Incorporated (MTI)
  • 5.13.1 MTI MicroFuel Cells
  • 5.13.2 MTI MicroFuel / Intermec
• 5.14 NEC Corporation
  • 5.14.1 NEC Research And Development Labs
  • 5.14.2 NEC IT And Networking Technologies
  • 5.14.3 NEC Network Solutions Business
  • 5.14.4 NEC Internet Broadband Network Positioning
  • 5.14.5 PEMEAS Fuel Cell Technologies
  • 5.14.6 PEMEAS Celtec® Membrane Electrode Assembly (MEA)
  • 5.14.7 Celtec®- Heart Of The Fuel Cell
• 5.15 SGL Technologies
  • 5.15.1 SGL Technologies Graphite Electrodes
• 5.16 Smart Fuel Cell
  • 5.16.1 Smart Fuel Cell Designs
  • 5.16.2 Smart Fuel Cell SFC Partners
  • 5.16.3 SFC Development Directions
  • 5.16.4 SFC Fuel cell stack
• 5.17 Solvay
• 5.18 Toshiba
  • 5.18.1 Toshiba Organization

List of Tables and Figures

• Table ES-1 Market Driving Force For Fuel Cell Components
• Figure ES-2 Worldwide Fuel Cell Component Market Shares, Dollars, 2004
• Figure ES-3 Worldwide Fuel Cell Component Membrane Electrode Assembly (MEAs) Forecasts, Dollars, 2005-2013
• Figure ES-4 Worldwide Fuel Cell Component Membrane Electrode Assembly (MEAs),GDL, Bipolar Plates, and other Components Research Spending Market Forecasts, Dollars, 2004

• Figure 1-1 Ballard Fuel Cell Stack
• Figure 1-2 Fuel Cell Components
• Figure 1-3 Fuel Cell Membrane Electrode Assembly (MEA)
• Figure 1-4 Ballard® Fuel Cell Stack Components
• Table 1-5 Fuel Cell Power Consumption Diagram
• Table 1-6 Asahi Glass Flemion®, a Fluoropolymer Ion-Exchange Membrane For Chloro-Alkali Electrolysis
• Table 1-7 DuPont Fuel Cells PEM Stack
• Table 2-1 Market Driving Force For Fuel Cell Components
• Table 2-2 Fuel Cell Component Market Issues
• Table 2-3 Commercialization Challenges Of The Automotive, Truck, and Bus Fuel Cell Industry
• Table 2-4 Integrated Fuel Cell Personal Transport Power Systems
• Table 2-5 Proton Exchange Membrane Fuel Cells (PEM) Market Aspects
• Figure 2-6 Worldwide Fuel Cell Component Market Shares, Dollars, 2004
• Table 2-7 Worldwide Fuel Cell Component Market Shares, Dollars, 2004
• Figure 2-8 Worldwide Fuel Cell Auto Membrane Electrode Assembly (MEA’s) For Low Temperature PEM, Market Shares, Dollars, 2004
• Table 2-9 Worldwide Fuel Cell Auto Membrane Electrode Assembly (MEA’s) For Low Temperature PEM, Market Shares, Dollars, 2004
• Table 2-10 Selected Fuel Cell Membrane Electrode Assemblies (MEAs) Companies
• Table 2-11 Advantages of High Temperature MEAs for PEM Fuel Cells
• Figure 2-12 Worldwide Fuel Cell Auto Membrane Electrode Assembly (MEA’s) For High Temperature PEM, Market Shares, Dollars, 2004
• Table 2-13 Worldwide Fuel Cell Auto Membrane Electrode Assembly (MEA’s) For High Temperature PEM, Market Shares, Dollars, 2004
• Figure 2-14 Worldwide Fuel Cell Direct Methanol Membrane Electrode Assembly Component Market Shares, Dollars, 2004
• Table 2-15 Worldwide Fuel Cell Membrane Electrode Assembly (MEA’s) Direct Methanol Fuel Cell (DMFC) Market Shares, Dollars, 2004
• Figure 2-16 Worldwide Fuel Cell Bipolar Plate Market Shares, Dollars, 2004
• Table 2-17 Worldwide Fuel Cell Bipolar Plate Market Shares, Dollars, 2004
• Figure 2-18 Worldwide Fuel Cell Graphite Powders Gas Diffusion Electrode Catalyst Coating Market Shares, Dollars, 2004
• Table 2-19 Worldwide Fuel Cell Graphite Powders Gas Diffusion Electrode Catalyst Coating Market Shares, Dollars, 2004
• Figure 2-20 Worldwide Fuel Cell Balance of Plant Market Shares, Dollars, 2004
• Table 2-21 Worldwide Fuel Cell Balance of Plant Market Shares, Dollars, 2004
• Figure 2-22 Worldwide Fuel Cell Component Forecasts, Dollars, 2005-2013
• Table 2-23 Worldwide Fuel Cell Membrane Electrode Assembly (MEA’s), GDL, Bipolar Plates, and Other Components, Market Forecasts, Dollars , 2004
• Figure 2-24 Worldwide Auto Fuel Cell Component Membrane Electrode Assembly (MEA’s) Forecasts, Dollars, 2005-2013
• Figure 2-25 Worldwide Bus Fuel Cell Component Membrane Electrode Assembly (MEA’s) Forecasts, Dollars, 2005-2013
• Table 2-26 Worldwide Transportation Fuel Cell Shipments Units, 2005-2013
• Table 2-27 Worldwide Fuel Cell Transportation Component Membrane Electrode Assembly (MEA’s), Bipolar Plates, Gas Diffusion Electrode (GDL), Units and Dollars, 2005-2013
• Table 2-28 Worldwide Fuel Cell Transportation Component Membrane Electrode Assembly (MEA’s) Units and Dollars, 2005-2013
• Figure 2-29 Worldwide Residential Fuel Cell Component Membrane Electrode Assembly (MEA’s) Forecasts, Dollars, 2005-2013
• Table 2-30 Worldwide Residential / Campus Fuel Cell Component Membrane Electrode Assembly (MEA’s) Units and Dollars, 2005-2013
• Table 2-31 Worldwide Fuel Cell Residential High Temperature Component Membrane Electrode Assembly (MEA’s) Units and Dollars, 2007-2013
• Figure 2-32 Worldwide Micro Fuel Cell Component Membrane Electrode Assembly (MEA’s) Forecasts, Dollars, 2005-2013
• Figure 2-33 Worldwide Fuel Cell Component Membrane Electrode Assembly (MEA’s) Forecasts, Dollars, 2005-2013
• Table 2-34 Worldwide Fuel Cell Membrane Electrode Assembly (MEA’s) Component Market Forecasts, Dollars, 2004
• Figure 2-35 Worldwide Transport Bipolar Plates Fuel Cell Component Forecasts, Dollars, 2005-2013
• Figure 2-36 Worldwide BiPolar Plate Fuel Cell Component Forecasts, Dollars, 2005-2013
• Figure 2-37 Worldwide Transport Gas Diffusion Layer Fuel Cell Components, Dollar Forecasts, 2005-2013
• Figure 2-38 Worldwide Gas Diffusion Layer (GDL) Fuel Cell Components, Forecasts, Dollars, 2005-2013